EM wave propagation: respective phase of E and M field

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SUMMARY

In electromagnetic (EM) wave propagation, the electric (E) and magnetic (M) fields are in phase when propagating in free space, as confirmed by Maxwell's equations. However, in the near field of certain antenna designs, such as an ideal electric radiating dipole, a phase shift of up to π/2 can occur. This distinction is crucial for understanding the behavior of EM waves in different contexts, such as far-field versus near-field scenarios. The intrinsic impedance of free space being real ensures that E and M fields remain in phase under ideal conditions.

PREREQUISITES
  • Maxwell's equations
  • Understanding of intrinsic impedance of free space
  • Knowledge of near field vs. far field concepts
  • Familiarity with antenna theory, specifically electric radiating dipoles
NEXT STEPS
  • Study the implications of Maxwell's equations on EM wave propagation
  • Research the concept of intrinsic impedance in various media
  • Learn about the characteristics of near field and far field in antenna design
  • Explore the behavior of electric radiating dipoles and their phase relationships
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Students and professionals in electrical engineering, physicists studying electromagnetism, and antenna designers seeking to understand the phase relationships between electric and magnetic fields in different propagation environments.

timber1969
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TL;DR
are E and M field in phase (far field)?
Hi alltogether,

I have been confused about a certain topic of EM wave propagation:

it´s clear to me that E and M field are perpendicular to each other (I know Maxwell´s equations well).

But:
sometimes you can find on the internet that both fields are in phase:
https://i.stack.imgur.com/aeoHQ.jpg

... whereas in other cases there is a phase shift of pi/2 respective to each other:
https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcRSjCbPyMVkBNOOJXtZ3o0cO7T1xXp58OZ2Cg&usqp=CAU

So my question is: what is correct and why?

Thank you very much in advance and best regards,
Tim
 
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thank you very much for your quick and informative reply :smile::biggrin:
 
timber1969 said:
... whereas in other cases there is a phase shift of pi/2 respective to each other:
https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcRSjCbPyMVkBNOOJXtZ3o0cO7T1xXp58OZ2Cg&usqp=CAU
What is the context of this diagram? Does it describe propagation outward from a localized source (in which case one would expect the wave amplitude to decrease with distance, as shown)? Or does it describe propagation through a medium that absorbs or attenuates the wave? Or what?

Can you provide a link or reference to the original source?
 
timber1969 said:
Summary: are E and M field in phase (far field)?

So my question is: what is correct and why?
For a wave propagating in free space far from any sources they will be in phase. However, in materials and in the near field the phase may be different. Your second image might be showing the near field of some specific antenna design.
 
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Yes as @Dale said, in the far field E and B are in phase. But in the near field all sorts of "crazy" things can happen, the fields having phase difference up to ##\frac{\pi}{2}##, that's exactly what happens in the fields of an ideal electric radiating dipole (Hertzian dipole)
 
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thank you SO much to all of you :)
 
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